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Title: Vacuum-tight window structure for the passage of x-rays and similar penetrating radiation



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Claims: I claim as my invention:

1. A vacuum-tight window structure for the passage of X-ray energy and similar penetrating radiation, said structure comprising a frame having a tubular frame section with an edge directed generally axially toward the exterior side of the window construction, the tubular frame section extending generally axially and having a radially inner annular surface directed radially inwardly, a window member having a central disc-shaped window section transparent to penetrating radiation and having a tubular window flange section extending generally axially and providing radially inner and radially outer annular surfaces directed radially inwardly and radially outwardly respectively, and a ring section, said sections being assembled in a press-fit relationship to form a vacuum-tight joint between the frame section and the tubular window flange section with the material of the outer section having a thermal coefficient of expansion smaller than that of the window flange section, the tubular window flange section being disposed interiorly of the tubular frame section and terminating in an edge which is directed toward the exterior of the window structure, the ring section being disposed within the tubular window flange section, and the window flange section being of material having a thermal coefficient of expansion greater than that of the tubular frame section, the radially outer annular surface of the tubular window flange section mating with the radially inner annular surface of the tubular frame section, the ring section having an axially extending radially outer annular surface mating with the radially inner annular surface of the tubular window flange section, the ring section being encircled by both the tubular window flange section and the tubular frame section, and the tubular frame section, the tubular window flange section and the ring section being forced together with sufficient pressure therebetween at the mating surfaces thereof to provide a vacuum-tight mechanical press-fit relationship in the absence of any additional securing means.

2. A window structure according to claim 1 characterized in that the material of higher coefficient of thermal expansion forming the window flange section has the shape of a cap whose edge is bent so as to extend generally in an axial direction and toward the exterior of the window structure.

3. A window structure according to claim 1, characterized in that the frame tubular section and the ring section are made of steel of generally similar thermal coefficient of expansion, and that the window flange section is disposed between the frame tubular section and the ring section and is made of pure or alloyed aluminum having a greater thermal coefficient of expansion than the material of either the frame tubular section or the ring section.

4. A vacuum-tight window structure for the passage of X-ray energy and similar penetrating radiation, said structure comprising a frame having a tubular frame section with an edge directed generally axially toward the exterior side of the window construction, a window member having a window section transparent to penetrating radiation and having a tubular window flange section, and a ring section, said sections being assembled in a press-fit relationship to form a vacuum-tight joint between the frame section and the tubular window flange section with the material of the outer section having a thermal coefficient of expansion smaller than that of the window flange section, the tubular window flange section being disposed interiorly of the tubular frame section and terminating in an edge which is directed toward the exterior of the window structure, the ring section being disposed within the tubular window flange section, and the window flange section being of material having a thermal coefficient of expansion greater than that of the tubular frame section, the tubular frame section and the ring section being made of steel of generally similar thermal coefficient of expansion, and the window flange section being disposed between the tubular frame section and the ring section and being made of pure or alloyed aluminum having a greater thermal coefficient of expansion than the material of either the tubular frame section or the ring section, the interior ring section being provided with an exterior surface of conical shape and of progressively increasing diameter in the direction toward the exterior of the window structure, and the tubular frame section being provided with an interior surface of a substantially conical shape and with a progressively increasing diameter in the direction toward the exterior of the window structure.

5. A window structure according to claim 4 characterized in that at least one of the sections made of steel is provided with at least one bead extending about its circumference on that surface which is engaged with the aluminum material of the window flange section so as to mechanically interlock such one section with the window flange section when the sections are at a common temperature.

6. A window structure according to claim 5 characterized in that the bead is formed on the tubular frame section and has a triangular cross section, the peak of the triangular cross section being directed inwardly and terminating below the surface of the window flange section by an amount at room temperature sufficient to mechanically interlock the window flange section to the tubular frame section.

7. An electronic x-ray image intensifier comprising a tube having a tubular frame section with a radially inner annular surface, a cap-shaped window member having a central outwardly dished window section with an edge bent so as to extend generally in an axial direction toward the exterior of the tube and providing a tubular window flange section with radially inner and radially outer annular surfaces directed radially inwardly and radially outwardly respectively, and a ring section, said sections being assembled in a press-fit relationship to form a vacuum-tight joint between the frame section and the tubular window flange section with the material of the frame section having a thermal coefficient of expansion smaller than that of the window flange section, the tubular window flange section being disposed interiorly of the tubular frame section, the ring section being disposed within the tubular window flange section so as to be encircled by both the tubular window flange section and the tubular frame section, and having a thermal coefficient of expansion such that the pressure of the press-fit relationship increases with increasing temperature, the radially outer annular surface of the tubular window flange section mating with the radially inner annular surface of the tubular frame section, the radially outer annular surface of the ring section mating with the radially inner annular surface of the tubular window flange section, and the tubular frame section, the tubular window flange section and the ring section being forced together with sufficient pressure therebetween at the mating surfaces thereof to provide a vacuum-tight mechanical press-fit relationship in the absence of any additional securing means.

8. An image intensifier according to claim 7 with the radially outer annular surface of the tubular window flange section having mating engagement with the radially inner annular surface of the tubular frame section over an extent in the axial direction of about 2 to 3 centimeters.

9. An image intensifier according to claim 7 with the window member including said tubular window flange section being of sheet material having a thickness of about 1 millimeter.

10. An image intensifier according to claim 7 having an inlet diameter of about 30 centimeters, the ring section fitting substantially entirely within the tubular window flange section and having substantially greater radial thickness than the tubular window flange section, the radially outer annular surface of the tubular window flange section engaging the radially inner annular surface of the tubular frame section over an axial extent of from about 2 to 3 centimeters and sufficient to provide a vacuum-tight seal therebetween solely by virtue of the mechanical press-fit relationship therebetween.

Other info:


Inventors: Rohrich, Heinz (Erlangen, DE, US)

Application Number: 756472
Filing Date: 1977-01-03
Publication_date: 1978-10-31
Assignee: Siemens Aktiengesellschaft (Berlin & Munich, DE1)
Primary Class(es): 220/2.3R 313/420, 313/527, 378/140, 378/161
Other Classes:
US Patent Ref:
2187126Jan, 1940Kern et al.313/420.
2730637Jan, 1956Atlee313/420.
2820168Jan, 1958Stiff313/420.
2885585May, 1959Zunick et al.313/420.
2898492Aug, 1959Miller313/420.
3105916Oct, 1963Marker et al.313/420.
3406304Oct, 1968Brewster313/420.
3716737Feb, 1973Belkin et al.313/59.
3878417Apr, 1975Eberlein313/59.

Other Refs: 618,811829,6951,103,563
Jul, 1947GB
Mar, 1960GB
Feb, 1968GB

Primary Examiner: Marcus, Stephen
Assistant Examiner:
Attorney: Hill, Gross, Simpson, Van Santen, Steadman, Chiara & Simpson